Alright everyone. You now know the substitution method.
Another method is called the elimination method or the addition or
subtraction method. In this way of solving systems of equations, one
variable is eliminated by adding or subtracting the
equations (understand their names now? =P).

When adding two equations, you basically add all parts of them.
Say you had the equations:
4x + 5y = 14
-4x - 3y = -10

Adding them would give 2y = 4

4x + 5y = 14+ -4x - 3y = -10 2y = 4

As you can see, the 4x and -4x cancelled out, therefore
eliminating the variable x, leaving an equation with only one variable (y),
able to be solved.

2y = 4
y = 2

Now that you have a value for y, you must find one for x.
To do this, just substitute the value for y into either original equation, and
solve it for x

4x + 5(2) = 14
4x + 10 = 14
4x = 4
x = 1

Your solution for these two equations is (1, 2).

Notice that only because 4x and -4x, when added, produce 0
(cancel out), the equation can be solved. Their coefficients are opposites
of each other. That is why it worked.

Try another one.

6x - 2y = 18
6x - 7y = 3

These two equations, if added, do not help. Instead, you
can subtract them. Subtraction is just addition of the opposite, so change
EVERY sign in one equation, and add it to the other.

-1(6x - 7y = 3)
-6x + 7y = -3

6x - 2y = 18+ -6x + 7y = -3 5y = 15

y = 3
6x - 2(3) = 18
6x - 6 = 18
6x = 24
x = 4

The solution is (4, 3).

Try another one, just for practice.

5x - 7y = 17
-9x - 7y = -11

-1(-9x - 7y = -11)
9x + 7y = 11

5x - 7y = 17+ 9x + 7y = 11 14x = 28

x = 2
5(2) - 7y = 17
10 - 7y = 17
-7y = 7
y = -1

The solution is (2, -1).

But what if you want to solve a system using this method where
no coefficients are the same or opposites of each other?Click here to go to
the next page and find out.